Summary of all Extravehicular Activities (EVA)
Year Activity
1965 EVA
IVA
EVA
1966 IVA
EVA
IVA
SEVA
IVA
EVA
IVA
IVA
IVA
EVA
IVA
IVA
IVA
SEVA
IVA
SEVA
IVA
EVA
IVA
SEVA
1969 EVA
EVA
IVA
EVA
SEVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
IVA
IVA
1971 EVA
EVA
EVA
EVA
IVA
IVA
SEVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
IVA
EVA
SEVA
1972 EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
IVA
EVA
SEVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
IVA
IVA
IVA
EVA
SEVA
1973 IVA
IVA
SEVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1974 EVA
EVA
1977 SEVA
SEVA
1978 SEVA
EVA
1979 EVA
EVA
1982 SEVA
EVA
1983 EVA
EVA
EVA
EVA
EVA
EVA
1984 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1985 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1986 EVA
EVA
EVA
EVA
1987 EVA
EVA
EVA
EVA
EVA
EVA
1988 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1990 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1991 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1992 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1993 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1994 EVA
EVA
EVA
EVA
EVA
EVA
1995 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
IVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
1996 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
1997 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1998 EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
1999 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
2000 EVA
EVA
EVA
EVA
EVA
EVA
Astronaut /
Cosmonaut
A. Leonov
J. McDivitt
E. White
T. Stafford
E. Cernan
J. Young
M. Collins
J. Young
M. Collins
J. Young
M. Collins
C. Conrad
R. Gordon
C. Conrad
R. Gordon
C. Conrad
R. Gordon
J. Lovell
E. Aldrin
J. Lovell
E. Aldrin
J. Lovell
E. Aldrin
A. Yeliseyev
Y. Khrunov
J. McDivitt
R. Schweickart
D. Scott
N. Armstrong
E. Aldrin
N. Armstrong
E. Aldrin
C. Conrad
A. Bean
C. Conrad
A. Bean
C. Conrad
A. Bean
A. Shepard
E. Mitchell
A. Shepard
E. Mitchell
A. Shepard
E. Mitchell
D. Scott
J. Irwin
D. Scott
J. Irwin
D. Scott
J. Irwin
D. Scott
J. Irwin
D. Scott
J. Irwin
D. Scott
A. Worden
J. Irwin
J. Young
C. Duke
J. Young
C. Duke
J. Young
C. Duke
J. Young
C. Duke
J. Young
T. Mattingly
C. Duke
E. Cernan
H. Schmitt
E. Cernan
H. Schmitt
E. Cernan
H. Schmitt
E. Cernan
H. Schmitt
E. Cernan
H. Schmitt
E. Cernan
R. Evans
H. Schmitt
C. Conrad
J. Kerwin
P. Weitz
C. Conrad
J. Kerwin
C. Conrad
P. Weitz
O. Garriott
J. Lousma
O. Garriott
J. Lousma
A. Bean
O. Garriott
E. Gibson
W. Pogue
G. Carr
W. Pogue
G. Carr
E. Gibson
G. Carr
E. Gibson
Y. Romanenko
G. Grechko
V. Kovalyonok
A. Ivanchenkov
V. Lyakhov
V. Ryumin
A. Berezovoy
V. Lebedev
S. Musgrave
D. Peterson
V. Lyakhov
A. Aleksandrov
V. Lyakhov
A. Aleksandrov
B. McCandless
R. Stewart
B. McCandless
R. Stewart
G. Nelson
J. van Hoften
G. Nelson
J. van Hoften
L. Kizim
V. Soloviyov
L. Kizim
V. Soloviyov
L. Kizim
V. Soloviyov
L. Kizim
V. Soloviyov
L. Kizim
V. Soloviyov
V. Dzhanibekov
S. Savitskaya
L. Kizim
V. Soloviyov
D. Leestma
K. Sullivan
J. Allen
D. Gardner
J. Allen
D. Gardner
J. Hoffman
S. Griggs
V. Dzhanibekov
V. Savinykh
J. van Hoften
W. Fisher
J. van Hoften
W. Fisher
J. Ross
S. Spring
J. Ross
S. Spring
L. Kizim
V. Soloviyov
L. Kizim
V. Soloviyov
Y. Romanenko
A. Laveykin
Y. Romanenko
A. Laveykin
Y. Romanenko
A. Laveykin
V. Titov
M. Manarov
V. Titov
M. Manarov
V. Titov
M. Manarov
A. Volkov
J.-L. Chrétien
A. Viktorenko
A. Serebrov
A. Viktorenko
A. Serebrov
A. Viktorenko
A. Serebrov
A. Viktorenko
A. Serebrov
A. Viktorenko
A. Serebrov
A. Soloviyov
A. Balandin
A. Soloviyov
A. Balandin
G. Manakov
G. Strekalov
V. Afanasiyev
M. Manarov
V. Afanasiyev
M. Manarov
V. Afanasiyev
M. Manarov
J. Ross
J. Apt
J. Ross
J. Apt
V. Afanasiyev
M. Manarov
A. Artsebarsky
S. Krikalyov
A. Artsebarsky
S. Krikalyov
A. Artsebarsky
S. Krikalyov
A. Artsebarsky
S. Krikalyov
A. Artsebarsky
S. Krikalyov
A. Artsebarsky
S. Krikalyov
A. Volkov
S. Krikalyov
P. Thuot
R. Hieb
P. Thuot
R. Hieb
P. Thuot
R. Hieb
T. Akers
K. Thornton
T. Akers
A. Viktorenko
A. Kaleri
A. Soloviyov
S. Avdeyev
A. Soloviyov
S. Avdeyev
A. Soloviyov
S. Avdeyev
A. Soloviyov
S. Avdeyev
G. Harbaugh
M. Runco
G. Manakov
A. Poleshchuk
G. Manakov
A. Poleshchuk
G. Low
P. Wisoff
V. Tsibliyev
A. Serebrov
C. Walz
J. Newman
V. Tsibliyev
A. Serebrov
V. Tsibliyev
A. Serebrov
V. Tsibliyev
A. Serebrov
V. Tsibliyev
A. Serebrov
J. Hoffman
S. Musgrave
K. Thornton
T. Akers
J. Hoffman
S. Musgrave
K. Thornton
T. Akers
J. Hoffman
S. Musgrave
Y. Malenchenko
T. Musabayev
Y. Malenchenko
T. Musabayev
M. Lee
C. Meade
M. Foale
B. Harris
V. Dezhurov
G. Strekalov
V. Dezhurov
G. Strekalov
V. Dezhurov
G. Strekalov
V. Dezhurov
G. Strekalov
V. Dezhurov
G. Strekalov
A. Soloviyov
N. Budarin
A. Soloviyov
N. Budarin
A. Soloviyov
N. Budarin
J. Voss
M. Gernhardt
S. Avdeyev
T. Reiter
Y. Gidzenko
S. Avdeyev
L. Chiao
D. Barry
L. Chiao
W. Scott
Y. Gidzenko
T. Reiter
Y. Onufriyenko
Y. Usachyov
L. Godwin
M. Clifford
Y. Onufriyenko
Y. Usachyov
Y. Onufriyenko
Y. Usachyov
Y. Onufriyenko
Y. Usachyov
Y. Onufriyenko
Y. Usachyov
Y. Onufriyenko
Y. Usachyov
T. Jernigan
T. Jones
V. Korzun
A. Kaleri
V. Korzun
A. Kaleri
M. Lee
S. Smith
G. Harbaugh
J. Tanner
M. Lee
S. Smith
G. Harbaugh
J. Tanner
M. Lee
S. Smith
V. Tsibliyev
J. Linenger
A. Soloviyov
P. Vinogradov
A. Soloviyov
M. Foale
S. Parazynski
V. Titov
A. Soloviyov
P. Vinogradov
A. Soloviyov
P. Vinogradov
A. Soloviyov
P. Vinogradov
W. Scott
T. Doi
W. Scott
T. Doi
A. Soloviyov
P. Vinogradov
A. Soloviyov
D. Wolf
T. Musabayev
N. Budarin
T. Musabayev
N. Budarin
T. Musabayev
N. Budarin
T. Musabayev
N. Budarin
T. Musabayev
N. Budarin
T. Musabayev
N. Budarin
G. Padalka
S. Avdeyev
G. Padalka
S. Avdeyev
J. Ross
J. Newman
J. Ross
J. Newman
J. Ross
J. Newman
V. Afanasiyev
J.-P. Haigneré
T. Jernigan
D. Barry
V. Afanasiyev
S. Avdeyev
V. Afanasiyev
S. Avdeyev
S. Smith
J. Grunsfeld
M. Foale
C. Nicollier
S. Smith
J. Grunsfeld
S. Zalyotin
A. Kaleri
J. Williams
J. Voss
E. Lu
Y. Malenchenko
Spacecraft /
Spacestation
Voskhod 2
Gemini 4
Gemini 9A
Gemini 10
Gemini 10
Gemini 10
Gemini 11
Gemini 11
Gemini 11
Gemini 12
Gemini 12
Gemini 12
Soyuz 5/4
Apollo 9
Apollo 11
Apollo 11
Apollo 12
Apollo 12
Apollo 12
Apollo 14
Apollo 14
Apollo 14
Apollo 15
Apollo 15
Apollo 15
Apollo 15
Apollo 15
Apollo 15
Apollo 16
Apollo 16
Apollo 16
Apollo 16
Apollo 16
Apollo 17
Apollo 17
Apollo 17
Apollo 17
Apollo 17
Apollo 17
Skylab 2
Skylab 2
Skylab 1
Skylab 2
Skylab 1
Skylab 3
Skylab 1
Skylab 3
Skylab 1
Skylab 3
Skylab 1
Skylab 4
Skylab 1
Skylab 4
Skylab 1
Skylab 4
Skylab 1
Skylab 4
Skylab 1
Soyuz 26
Salyut 6
Soyuz 29
Salyut 6
Soyuz 32
Salyut 6
Soyuz T-5
Salyut 7
STS-6
Soyuz T-9
Salyut 7
Soyuz T-9
Salyut 7
STS-41B
STS-41B
STS-41C
STS-41C
Soyuz T-10
Salyut 7
Soyuz T-10
Salyut 7
Soyuz T-10
Salyut 7
Soyuz T-10
Salyut 7
Soyuz T-10
Salyut 7
Soyuz T-12
Salyut 7
Soyuz T-10
Salyut 7
STS-41G
STS-51A
STS-51A
STS-51D
Soyuz T-13
Salyut 7
STS-51I
STS-51I
STS-61B
STS-61B
Soyuz T-15
Salyut 7
Soyuz T-15
Salyut 7
Soyuz TM-2
Mir
Soyuz TM-2
Mir
Soyuz TM-2
Mir
Soyuz TM-4
Mir
Soyuz TM-4
Mir
Soyuz TM-4
Mir
Soyuz TM-7
Mir
Soyuz TM-8
Mir
Soyuz TM-8
Mir
Soyuz TM-8
Mir
Soyuz TM-8
Mir
Soyuz TM-8
Mir
Soyuz TM-9
Mir
Soyuz TM-9
Mir
Soyuz TM-10
Mir
Soyuz TM-11
Mir
Soyuz TM-11
Mir
Soyuz TM-11
Mir
STS-37
STS-37
Soyuz TM-11
Mir
Soyuz TM-12
Mir
Soyuz TM-12
Mir
Soyuz TM-12
Mir
Soyuz TM-12
Mir
Soyuz TM-12
Mir
Soyuz TM-12
Mir
Soyuz TM-13
Mir
STS-49
STS-49
STS-49
STS-49
Soyuz TM-14
Mir
Soyuz TM-15
Mir
Soyuz TM-15
Mir
Soyuz TM-15
Mir
Soyuz TM-15
Mir
STS-54
Soyuz TM-16
Mir
Soyuz TM-16
Mir
STS-57
Soyuz TM-17
Mir
STS-51
Soyuz TM-17
Mir
Soyuz TM-17
MIR
Soyuz TM-17
Mir
Soyuz TM-17
Mir
STS-61
STS-61
STS-61
STS-61
STS-61
Soyuz TM-19
Mir
Soyuz TM-19
Mir
STS-64
STS-63
Soyuz TM-21
Mir
Soyuz TM-21
Mir
Soyuz TM-21
Mir
Soyuz TM-21
Mir
Soyuz TM-21
Mir
Mir
Mir
Mir
STS-69
Soyuz TM-22
Mir
Soyuz TM-22
Mir
STS-72
STS-72
Soyuz TM-22
Mir
Soyuz TM-23
Mir
STS-76
Mir
Soyuz TM-23
Mir
Soyuz TM-23
Mir
Soyuz TM-23
Mir
Soyuz TM-23
Mir
Soyuz TM-23
Mir
STS-80
Soyuz TM-24
Mir
Soyuz TM-24
Mir
STS-82
STS-82
STS-82
STS-82
STS-82
Soyuz TM-25
Mir
Soyuz TM-26
Mir
Soyuz TM-26
Mir
STS-86
Mir
Soyuz TM-26
Mir
Soyuz TM-26
Mir
Soyuz TM-26
Mir
STS-87
STS-87
Soyuz TM-26
Mir
Soyuz TM-26
Mir
Soyuz TM-27
Mir
Soyuz TM-27
Mir
Soyuz TM-27
Mir
Soyuz TM-27
Mir
Soyuz TM-27
Mir
Soyuz TM-27
Mir
Soyuz TM-28
Mir
Soyuz TM-28
Mir
STS-88
ISS
STS-88
ISS
STS-88
ISS
Soyuz TM-29
Mir
STS-96
ISS
Soyuz TM-29
Mir
Soyuz TM-29
Mir
STS-103
STS-103
STS-103
Soyuz TM-30
Mir
STS-101
ISS
STS-106
ISS
Date UTC
18.03.1965
03.06.1965
03.06.1965
05.06.1966
05.06.1966
19.07.1966
19.07.1966
20.07.1966
20.07.1966
20.07.1966
20.07.1966
13.09.1966
13.09.1966
13.09.1966
13.09.1966
14.09.1966
14.09.1966
12.11.1966
12.11.1966
13.11.1966
13.11.1966
14.11.1966
14.11.1966
16.01.1969
16.01.1969
06.03.1969
06.03.1969
06.03.1969
21.07.1969
21.07.1969
21.07.1969
21.07.1969
19.11.1969
19.11.1969
20.11.1969
20.11.1969
20.11.1969
20.11.1969
05.02.1971
05.02.1971
06.02.1971
06.02.1971
06.02.1971
06.02.1971
31.07.1971
31.07.1971
31.07.1971
31.07.1971
01.08.1971
01.08.1971
02.08.1971
02.08.1971
02.08.1971
02.08.1971
05.08.1971
05.08.1971
05.08.1971
21.04.1972
21.04.1972
22.04.1972
22.04.1972
23.04.1972
23.04.1972
23.04.1972
23.04.1972
25.04.1972
25.04.1972
25.04.1972
11.12.1972
11.12.1972
12.12.1972
12.12.1972
13.12.1972
13.12.1972
14.12.1972
14.12.1972
14.12.1972
14.12.1972
17.12.1972
17.12.1972
17.12.1972
26.05.1973
26.05.1973
26.05.1973
07.06.1973
07.06.1973
19.06.1973
19.06.1973
07.08.1973
07.08.1973
24.08.1973
24.08.1973
22.09.1973
22.09.1973
22.11.1973
22.11.1973
25.12.1973
25.12.1973
29.12.1973
29.12.1973
03.02.1974
03.02.1974
19.12.1977
19.12.1977
29.07.1978
29.07.1978
15.08.1979
15.08.1979
30.07.1982
30.07.1982
07.04.1983
07.04.1983
01.11.1983
01.11.1983
03.11.1983
03.11.1983
07.02.1984
07.02.1984
09.02.1984
09.02.1984
08.04.1984
08.04.1984
11.04.1984
11.04.1984
23.04.1984
23.04.1984
26.04.1984
26.04.1984
29.04.1984
29.04.1984
03.05.1984
03.05.1984
18.05.1984
18.05.1984
25.07.1984
25.07.1984
08.08.1984
08.08.1984
11.10.1984
11.10.1984
12.11.1984
12.11.1984
14.11.1984
14.11.1984
16.04.1985
16.04.1985
02.08.1985
02.08.1985
31.08.1985
31.08.1985
01.09.1985
01.09.1985
29.11.1985
29.11.1985
01.12.1985
01.12.1985
28.05.1986
28.05.1986
31.05.1986
31.05.1986
11.04.1987
11.04.1987
12.06.1987
12.06.1987
16.06.1987
16.06.1987
26.02.1988
26.02.1988
30.06.1988
30.06.1988
20.10.1988
20.10.1988
09.12.1988
09.12.1988
08.01.1990
08.01.1990
11.01.1990
11.01.1990
26.01.1990
26.01.1990
01.02.1990
01.02.1990
05.02.1990
05.02.1990
17.07.1990
17.07.1990
26.07.1990
26.07.1990
29.10.1990
29.10.1990
07.01.1991
07.01.1991
22.01.1991
22.01.1991
26.01.1991
26.01.1991
07.04.1991
07.04.1991
08.04.1991
08.04.1991
25.04.1991
25.04.1991
24.06.1991
24.06.1991
28.06.1991
28.06.1991
15.07.1991
15.07.1991
19.07.1991
19.07.1991
23.07.1991
23.07.1991
27.07.1991
27.07.1991
20.02.1992
20.02.1992
10.05.1992
10.05.1992
11.05.1992
11.05.1992
13.05.1992
13.05.1992
13.05.1992
14.05.1992
14.05.1992
08.07.1992
08.07.1992
03.09.1992
03.09.1992
07.09.1992
07.09.1992
11.09.1992
11.09.1992
15.09.1992
15.09.1992
17.01.1993
17.01.1993
19.04.1993
19.04.1993
18.06.1993
18.06.1993
25.06.1993
25.06.1993
16.09.1993
16.09.1993
16.09.1993
16.09.1993
20.09.1993
20.09.1993
28.09.1993
28.09.1993
22.10.1993
22.10.1993
29.10.1993
29.10.1993
05.12.1993
05.12.1993
06.12.1993
06.12.1993
07.12.1993
07.12.1993
08.12.1993
08.12.1993
09.12.1993
09.12.1993
09.09.1994
09.09.1994
13.09.1994
13.09.1994
16.09.1994
16.09.1994
09.02.1995
09.02.1995
12.05.1995
12.05.1995
17.05.1995
17.05.1995
22.05.1995
22.05.1995
29.05.1995
29.05.1995
01.06.1995
01.06.1995
14.07.1995
14.07.1995
19.07.1995
19.07.1995
21.07.1995
21.07.1995
16.09.1995
16.09.1995
20.10.1995
20.10.1995
08.12.1995
08.12.1995
15.01.1996
15.01.1996
17.01.1996
17.01.1996
08.02.1996
08.02.1996
15.03.1996
15.03.1996
27.03.1996
27.03.1996
20.05.1996
20.05.1996
24.05.1996
24.05.1996
30.05.1996
30.05.1996
06.06.1996
06.06.1996
13.06.1996
13.06.1996
29.11.1996
29.11.1996
02.12.1996
02.12.1996
09.12.1996
09.12.1996
14.02.1997
14.02.1997
15.02.1997
15.02.1997
16.02.1997
16.02.1997
17.02.1997
17.02.1997
18.02.1997
18.02.1997
29.04.1997
29.04.1997
22.08.1997
22.08.1997
06.09.1997
06.09.1997
01.10.1997
01.10.1997
20.10.1997
20.10.1997
03.11.1997
03.11.1997
06.11.1997
06.11.1997
25.11.1997
25.11.1997
03.12.1997
03.12.1997
09.01.1998
09.01.1998
14.01.1998
14.01.1998
03.03.1998
03.03.1998
01.04.1998
01.04.1998
06.04.1998
06.04.1998
11.04.1998
11.04.1998
17.04.1998
17.04.1998
22.04.1998
22.04.1998
15.09.1998
15.09.1998
10.11.1998
10.11.1998
07.12.1998
07.12.1998
09.12.1998
09.12.1998
12.12.1998
12.12.1998
16.04.1999
16.04.1999
30.05.1999
30.05.1999
23.07.1999
23.07.1999
28.07.1999
28.07.1999
22.12.1999
22.12.1999
23.12.1999
23.12.1999
24.12.1999
24.12.1999
12.05.2000
12.05.2000
22.05.2000
22.05.2000
11.09.2000
11.09.2000
EVA
duration
0h 16m
0h 36m
0h 36m
2h 09m
2h 09m
0h 49m
0h 49m
0h 39m
0h 39m
0h 03m
0h 03m
0h 38m
0h 38m
0h 02m
0h 02m
2h 08m
2h 08m
2h 18m
2h 18m
2h 09m
2h 09m
1h 11m
1h 11m
0h 37m
0h 37m
0h 46m
0h 46m
0h 46m
2h 32m
2h 32m
0h 02m
0h 02m
3h 39m
3h 39m
3h 48m
3h 48m
0h 02m
0h 02m
4h 49m
4h 49m
4h 46m
4h 46m
0h 02m
0h 02m
0h 33m
0h 33m
6h 34m
6h 34m
7h 13m
7h 13m
4h 20m
4h 20m
0h 02m
0h 02m
0h 41m
0h 41m
0h 41m
7h 11m
7h 11m
7h 23m
7h 23m
5h 41m
5h 41m
0h 02m
0h 02m
1h 23m
1h 23m
1h 23m
7h 12m
7h 12m
7h 37m
7h 37m
7h 16m
7h 16m
0h 02m
0h 02m
0h 02m
0h 02m
1h 07m
1h 07m
1h 07m
0h 40m
0h 40m
0h 40m
3h 25m
3h 25m
1h 36m
1h 36m
6h 31m
6h 31m
4h 31m
4h 31m
2h 41m
2h 41m
6h 33m
6h 33m
7h 01m
7h 01m
3h 29m
3h 29m
5h 19m
5h 19m
1h 28m
1h 28m
2h 05m
2h 05m
1h 23m
1h 23m
2h 33m
2h 33m
4h 10m
4h 10m
2h 50m
2h 50m
2h 55m
2h 55m
5h 55m
5h 55m
6h 17m
6h 17m
2h 28m
2h 38m
6h 44m
6h 44m
4h 15m
4h 15m
5h 00m
5h 00m
2h 45m
2h 45m
2h 45m
2h 45m
3h 03m
3h 03m
3h 33m
3h 33m
5h 00m
5h 00m
3h 29m
3h 29m
6h 00m
6h 00m
5h 42m
5h 42m
3h 06m
3h 06m
4h 58m
4h 58m
7h 20m
7h 20m
4h 26m
4h 26m
5h 32m
5h 32m
6h 41m
6h 41m
3h 40m
3h 40m
5h 01m
5h 01m
3h 40m
3h 40m
1h 53m
1h 53m
3h 15m
3h 15m
4h 25m
4h 25m
5h 10m
5h 10m
4h 12m
4h 12m
6h 00m
6h 00m
2h 56m
2h 56m
2h 54m
2h 54m
3h 02m
3h 02m
4h 59m
4h 59m
3h 45m
3h 45m
7h 14m
7h 14m
3h 31m
3h 31m
2h 45m
2h 45m
5h 18m
5h 18m
5h 04m
5h 04m
6h 20m
6h 20m
4h 26m
4h 26m
5h 47m
5h 47m
3h 34m
3h 34m
4h 58m
4h 58m
3h 24m
3h 24m
5h 56m
5h 56m
5h 28m
5h 28m
5h 42m
5h 42m
6h 49m
6h 49m
4h 12m
4h 12m
3h 43m
3h 43m
5h 30m
5h 30m
8h 29m
8h 29m
8h 29m
7h 45m
7h 45m
2h 03m
2h 03m
3h 56m
3h 56m
5h 08m
5h 08m
5h 44m
5h 44m
3h 33m
3h 33m
4h 28m
4h 28m
5h 25m
5h 25m
4h 33m
4h 33m
5h 50m
5h 50m
4h 18m
4h 18m
7h 05m
7h 05m
3h 13m
3h 13m
1h 51m
1h 51m
0h 38m
0h 38m
4h 12m
4h 12m
7h 54m
7h 54m
6h 36m
6h 36m
6h 47m
6h 47m
6h 50m
6h 50m
7h 21m
7h 21m
5h 04m
5h 04m
6h 01m
6h 01m
6h 51m
6h 51m
4h 39m
4h 39m
6h 15m
6h 15m
6h 42m
6h 42m
5h 15m
5h 15m
0h 21m
0h 21m
0h 23m
0h 23m
5h 34m
5h 34m
3h 08m
3h 08m
5h 35m
5h 35m
6h 46m
6h 46m
5h 16m
5h 16m
0h 29m
0h 29m
6h 09m
6h 09m
6h 54m
6h 54m
3h 06m
3h 06m
5h 52m
5h 52m
6h 02m
6h 02m
5h 20m
5h 20m
5h 43m
5h 43m
4h 20m
4h 20m
3h 34m
3h 34m
5h 42m
5h 42m
1h 52m
1h 52m
5h 58m
5h 58m
6h 38m
6h 38m
6h 42m
6h 42m
7h 27m
7h 27m
7h 11m
7h 11m
6h 34m
6h 34m
5h 17m
5h 17m
4h 59m
4h 59m
3h 16m
3h 16m
6h 00m
6h 00m
5h 01m
5h 01m
6h 38m
6h 38m
6h 04m
6h 04m
6h 12m
6h 12m
7h 43m
7h 43m
4h 59m
4h 59m
3h 03m
3h 03m
3h 52m
3h 52m
~1h 50m
~1h 50m
6h 26m
6h 26m
4h 23m
4h 23m
6h 25m
6h 25m
6h 33m
6h 33m
6h 21m
6h 21m
0h 30m
0h 30m
5h 54m
5h 54m
7h 21m
7h 21m
7h 02m
7h 02m
6h 59m
6h 59m
6h 19m
6h 19m
7h 55m
7h 55m
6h 07m
6h 07m
5h 22m
5h 22m
8h 15m
8h 15m
8h 10m
8h 10m
8h 08m
8h 08m
5h 03m
5h 03m
6h 44m
6h 44m
6h 14m
6h 14m
EVA
EVA
L. Chiao
W. McArthur
STS-92
ISS
15.10.2000
15.10.2000
6h 28m
6h 28m
EVA
EVA
P. Wisoff
STS-92
M. Lopez-Alegria ISS
16.10.2000
16.10.2000
7h 07m
7h 07m
EVA
EVA
L. Chiao
W. McArthur
STS-92
ISS
17.10.2000
17.10.2000
6h 48m
6h 48m
EVA
EVA
P. Wisoff
STS-92
M. Lopez-Alegria ISS
18.10.2000
18.10.2000
6h 56m
6h 56m
EVA
EVA
EVA
EVA
EVA
EVA
2001 EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
IVA
IVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
2002 EVA
EVA
J. Tanner
C. Noriega
J. Tanner
C. Noriega
J. Tanner
C. Noriega
T. Jones
R. Curbeam
T. Jones
R. Curbeam
T. Jones
R. Curbeam
J. Voss
S. Helms
A. Thomas
P. Richards
C. Hadfield
S. Parazynski
C. Hadfield
S. Parazynski
Y. Usachyov
J. Voss
M. Gernhardt
J. Reilly
M. Gernhardt
J. Reilly
M. Gernhardt
J. Reilly
D. Barry
P. Forrester
D. Barry
P. Forrester
V. Dezhurov
M. Tyurin
V. Dezhurov
M. Tyurin
F. Culbertson
V. Dezhurov
V. Dezhurov
M. Tyurin
L. Godwin
D. Tani
Y. Onufriyenko
C. Walz
04.12.2000
04.12.2000
05.12.2000
05.12.2000
07.12.2000
07.12.2000
10.02.2001
10.02.2001
12.02.2001
12.02.2001
14.02.2001
14.02.2001
11.03.2001
11.03.2001
13.03.2001
13.03.2001
22.04.2001
22.04.2001
24.04.2001
24.04.2001
08.06.2001
08.06.2001
14.07.2001
14.07.2001
17.07.2001
17.07.2001
20.07.2001
20.07.2001
16.08.2001
16.08.2001
18.08.2001
18.08.2001
08.10.2001
08.10.2001
15.10.2001
15.10.2001
12.11.2001
12.11.2001
03.12.2001
03.12.2001
10.12.2001
10.12.2001
14.01.2002
14.01.2002
7h 33m
7h 33m
6h 37m
6h 37m
5h 10m
5h 10m
7h 33m
7h 33m
6h 50m
6h 50m
5h 25m
5h 25m
8h 55m
8h 55m
6h 21m
6h 21m
7h 10m
7h 10m
7h 40m
7h 40m
0h 19m
0h 19m
5h 59m
5h 59m
6h 26m
6h 26m
4h 01m
4h 01m
6h 16m
6h 16m
5h 29m
5h 29m
4h 58m
4h 58m
5h 52m
5h 52m
5h 04m
5h 04m
2h 46m
2h 46m
4h 12m
4h 12m
6h 03m
6h 03m
EVA
EVA
Y. Onufriyenko
D. Bursch
25.01.2002
25.01.2002
5h 59m
5h 59m
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
C. Walz
D. Bursch
J. Grunsfeld
R. Linnehan
J. Newman
M. Massimino
J. Grunsfeld
R. Linnehan
20.02.2002
20.02.2002
04.03.2002
04.03.2002
05.03.2002
05.03.2002
06.03.2002
06.03.2002
5h 47m
5h 47m
7h 01m
7h 01m
7h 16m
7h 16m
6h 48m
6h 48m
EVA
EVA
J. Newman
M. Massimino
07.03.2002
07.03.2002
7h 30m
7h 30m
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
J. Grunsfeld
R. Linnehan
S. Smith
R. Walheim
J. Ross
L. Morin
S. Smith
R. Walheim
J. Ross
L. Morin
STS-110
ISS
STS-110
ISS
STS-110
ISS
STS-110
ISS
08.03.2002
08.03.2002
11.04.2002
11.04.2002
13.04.2002
13.04.2002
14.04.2002
14.04.2002
16.04.2002
16.04.2002
7h 20m
7h 20m
7h 48m
7h 48m
7h 30m
7h 30m
6h 27m
6h 27m
6h 37m
6h 37m
EVA
EVA
F. Chang-Diaz
P. Perrin
STS-111
ISS
09.06.2002
09.06.2002
7h 14m
7h 14m
EVA
EVA
F. Chang-Diaz
P. Perrin
STS-111
ISS
11.06.2002
11.06.2002
5h 00m
5h 00m
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
F. Chang-Diaz
P. Perrin
V. Korzun
P. Whitson
V. Korzun
S. Treshchyov
D. Wolf
P. Sellers
STS-111
ISS
STS-112
ISS
13.06.2002
13.06.2002
16.08.2002
16.08.2002
26.08.2002
26.08.2002
10.10.2002
10.10.2002
7h 16m
7h 16m
4h 25m
4h 25m
5h 21m
5h 21m
7h 01m
7h 01m
EVA
EVA
D. Wolf
P. Sellers
STS-112
ISS
12.10.2002
12.10.2002
6h 04m
6h 04m
EVA
EVA
EVA
EVA
D. Wolf
P. Sellers
M. Lopez-Alegria
J. Herrington
STS-112
ISS
STS-113
ISS
14.10.2002
14.10.2002
26.11.2002
26.11.2002
6h 36m
6h 36m
6h 45m
6h 45m
EVA
EVA
M. Lopez-Alegria STS-113
J. Herrington
ISS
28.11.2002
28.11.2002
6h 10m
6h 10m
EVA
EVA
M. Lopez-Alegria STS-113
J. Herrington
ISS
30.11.2002
30.11.2002
7h 00m
7h 00m
EVA
EVA
K. Bowersox
D. Pettit
ISS
15.01.2003
15.01.2003
6h 51m
6h 51m
EVA
EVA
K. Bowersox
D. Pettit
ISS
08.04.2003
08.04.2003
6h 26m
6h 26m
26.02.2004
26.02.2004
24.06.2004
24.06.2004
30.06.2004
30.06.2004
3h 56m
3h 56m
0h 13m
0h 13m
5h 40m
5h 40m
2003
STS-97
ISS
STS-97
ISS
STS-97
ISS
STS-98
ISS
STS-98
ISS
STS-98
ISS
STS-102
ISS
STS-102
ISS
STS-100
ISS
STS-100
ISS
ISS
STS-104
ISS
STS-104
ISS
STS-104
ISS
STS-105
ISS
STS-105
ISS
ISS
ISS
ISS
ISS
STS-108
ISS
ISS
ISS
ISS
STS-109
STS-109
STS-109
STS-109
STS-109
ISS
ISS
2004 EVA
EVA
EVA
EVA
EVA
EVA
M. Foale
A. Kaleri
G. Padalka
M. Fincke
G. Padalka
M. Fincke
EVA
EVA
G. Padalka
M. Fincke
ISS
03.08.2004
03.08.2004
4h 30m
4h 30m
EVA
EVA
G. Padalka
M. Fincke
ISS
03.09.2004
03.09.2004
5h 21m
5h 21m
EVA
EVA
L. Chiao
S. Sharipov
ISS
26.01.2005
26.01.2005
5h 30m
5h 30m
EVA
EVA
L. Chiao
S. Sharipov
ISS
28.03.2005
28.03.2005
4h 30m
4h 30m
EVA
EVA
EVA
EVA
S. Robinson
S. Noguchi
S. Robinson
S. Noguchi
STS-114
ISS
STS-114
ISS
30.07.2005
30.07.2005
01.08.2005
01.08.2005
6h 50m
6h 50m
7h 14m
7h 14m
2005
ISS
ISS
ISS
First USSR EVA
First US EVA, cabin ventilated
AMU test (failed), cabin ventilated
Photography work, cabin ventilated
Dismantle of a meteorite detector
Discard EVA equipment into space
Mounting a rope on the Agena satellite
Discard EVA equipment into space
Photography work, cabin ventilated
Photography work, cabin ventilated
Rope-mounting and movement testing
Photography work, discard EVA equipment
Transferring from Soyuz 5 to Soyuz 4
Testing Lunar landing suit, photography work
First lunar landing, install EASEP
Discard EVA equipment
Second lunar landing, install ALSEP
Second lunar landing, inspection of Surveyor
Discard EVA equipment
Third lunar landing, install ALSEP
Third lunar landing, excursion Cone
Discard EVA equipment
Fourth lunar landing, inspection place of landing
Fourth lunar landing, ALSEP, excursion
Fourth lunar landing, second excursion
Fourth lunar landing, third excursion
Discard EVA equipment into space
Recovery of photo cassettes from CSM, cabin ventilated
Fifth lunar landing, ALSEP, excursion
Fifth lunar landing, second excursion
Fifth lunar landing, third excursion
Discard EVA equipment into space
Recovery of photo cassettes from CSM, cabin ventilated
Sixth lunar landing, ALSEP, excursion
Sixth lunar landing, second excursion
Sixth lunar landing, third excursion
Discard EVA equipment
Discard EVA equipment
Recovery of photo cassettes from CSM, cabin ventilated
Attempt to unfold the solar paddle
Unfolding one solar paddle
Replace of photo cassettes on the ATM
Replace of photo cassettes, solar shield
Replace of cassettes, cable installation
Replace of cassettes, recovery of experiments
Mounting of experiments, photography work
Replace of cassettes, photography work
Recovery of experiments, photography work
Replace of cassettes, recovery of experiments
Inspection of the nose docking adapter
Recovery of tools and experiments
Restore damaged KRT-10 antenna
Recovery of tools and experiments
Testing space suit and tools
Installation of a supplied solar cell
Installation of a second supplied solar cell
First flight test of the MMU (McCandless)
Second flight test of the MMU (Stewart)
Attemp to recover SMM with MMU (Nelson)
Repairing of SMM, test of MMU (van Hoften)
Preparations of repairing work
Repairing of fuel pipeline
Repairing of fuel pipeline
Repairing of fuel pipeline
Installation of a third and fourth supplied solar cell
Testing URI tool, first female EVA
Finally repairing of fuel pipeline
Satellite refuelling demonstration, first EVA of an American female astronaut
Retrieving satellite Palapa B 2 using MMU (Allen)
Retrieving satellite Westar VI using MMU (Gardner)
Preparations for a satellite rescue attempt on RMS
Installation of a 5th and 6th supplied solar cell
Recovery of satellite Syncom IV-3, beginning of repairing work
Finishing repairing work and deploying satellite
Building of EASE and ACCESS without RMS
Building of EASE and ACCESS using the RMS
Building large structures, recovery of experiments
Building large structures, recovery of experiments
Working on docking adapter
Installation of a solar cell structure (2 cells)
Finishing work on solar cell structure
Replacing a solar cell element on the Mir
Repairing of Röntgen telescope in Kvant1 module
Finishing repairing, building of a platform
Mounting of ERA, exchange of experiments
Mounting of tools, recovery of experiments
Mounting and rebuilding of tools and segments
Building a platform for SPK "Ikar" on Kvant2 module
First testing of SPK "Ikar" (Serebrov)
Second testing of SPK "Ikar" (Viktorenko)
Repairing thermo isolation of spacecraft
Searching of the leak in Kvant2 module
Repairing of Kvant2 hatch (failed)
Repairing of Kvant2 hatch
Mounting the first Strela crane on Mir
Mounting of restraints for solar cells
Deploying the large radio antenna of the GRO
Testing concepts for getting around the large space structures using CETA
Inspection of failed Kurs antenna
Replace of the Kurs antenna
Mounting of experiments / TV camera
Building platform for the Sofora mast
Mounting Sofora mast on Kvant1 module
Mounting Sofora mast on Kvant1 module
Mounting Sofora mast on Kvant1 module, hoisting the state banner
Dismantle platform, recovery of experiments
Capture of Intelsat VI/F-3 (failed)
Capture of Intelsat VI/F-3 (failed)
Capture of Intelsat VI/F-3 (with hands), mounting an upper stage and deploying
satellite
AASEM test for future EVAs
Repairing work on gyroscopic stabilizer
Preparing VDU mounting
VDU mounting re-hoisting the state banner
VDU mounting, tearing out the VDU
Mounting a Kurs antenna on Kristall module
Evaluation of limits of human performance during EVA
Mounting restraints for solar cells
Repairing crane, mounting restraints
EURECA communications antennas manually positioned for latching, evaluation
of EVA activity tools and techniques
Preparing Rapana mounting
Evaluating tools for HST-SM-01
Preparing Rapana mounting
Repairing of a valve, movie documentation
Movie documentation
Movie documentation, inspection Sofora
HST-SM-1, replace of Rate Sensor Units
HST-SM-1, replace of solar cells
HST-SM-1, replace of Wide Field / Planetary Camera
HST-SM-1, build in the COSTAR
HST-SM-1, replace of SADE controller
Repairing of Kristall isolation
Preparation work for new setting of solar cells
Test of the self-rescue jetpack SAFER
Evaluation of EVA activity tools (EDFT-01)
Preparation work for new setting of solar cells
Changing Kristall solar cell to Kvant1 module
Folding of the second Kristall solar cell
New setting of the docking adapter
New setting of the docking adapter
Unfolding solar cell on Spektr module
Mounting and recovery of experiments
Mounting and recovery of experiments
Evaluation of EVA activity tools (EDFT-02)
Mounting and recovery of experiments
New setting of the docking adapter
Evaluation of EVA activity tools (EDFT-03)
Evaluation of EVA activity tools (EDFT-03)
Recovery of experiments, expensing of SPK "Ikar"
Mounting the second Strela crane on Mir
Mounting different tools on the DM (EDFT-04)
New setting of a solar cell from DM to Kvant1
Installation solar cell on Kvant1 module
Mounting tools on Priroda module
Mounting and exchanging tools on Spektr module
Mounting power bus structure on Kvant1 module
Airlock hatch couldn't be opened (EDFT-05)
New setting of Rapana structure on Kvant1 module
Installation Kurs antenna on DM
HST-SM-02, replace of tools
HST-SM-02, mounting tools
HST-SM-02, mounting tools
HST-SM-02, mounting tools
HST-SM-02, replace Magnetic Sensing System Covers (MSS)
Mounting and recovery of experiments
Inspection of Spektr, repairing of cables
Inspection of Spektr, searching for a leak (failed)
Recovery of experiments from DM (EDFT-06)
Replace of Spektr/Mir hatch
Demounting Kristall solar cell on Kvant1 module
Installation new solar cell on Kvant1 module
Catching SPARTAN, testing crane (EDFT-05/02)
Test of AERCam Sprint (EDFT-05/02)
Recovery of experiments, inspection hatch Kvant2
Testing tools, inspection of complete Mir station
Airlock hatch did not open, EVA failed
Repairing Spektr solar cell structure
Continuing repairing Spektr module
Demounting VDU from Sofora structure
Preparing VDU mounting
Mounting VDU on Sofora structure
Repairing cables in Spektr module
Mounting tools, deploying Sputnik-41
Installation cable from Unity to Zarya module
Mounting tools, unfolding solar cell structure
Mounting restraints, using SAFER
Deploying Sputnik-99, evaluation of tools
Mounting crane (OTD and pieces of Strela)
Mounting parabola antenna on Sofora
Unfolding parabola antenna on Sofora
HST-SM-03, replace gyroscopes
HST-SM-03, replace of main computer
HST-SM-03, replace data recorder
Testing special adhesive, general inspection
Finishing crane mounting, repairing works
Mounting Zvezda connections
The S-band Antenna Support Assembly was relocated on the Z1 Truss. The Z1
starboard bulkhead thermal shrouds were removed and stowed. The port
Extravehicular Tool Storage Devices were released and transferred from the
Spacelab Logistics Pallet to the Z1 Truss. The Z1-to-Node 1 umbilicals, or
cables, were connected. The Space-to-Ground Antenna dish was installed onto
the boom and the boom was deployed.
Pressurized Mating Adapter 3 was installed on the Unity Connecting Module
nadir port. The primary and secondary cable bundles were connected between
the Pressurized Mating Adapter 3 and the Unity Module. Also, latches were
opened on the Z1 Truss.
Two DC-to-DC Converter Unit-Heat Pipes were installed on Z1. The Z1 keel pin
assembly was then relocated to another location on Z1. The Z1/P6 launch locks
were removed, then the Assembly Power Converter Units jumpers were also
removed from the Pressurized Mating Adapter 2. The starboard Extravehicular
Tool Storage Device was released and transferred from the Spacelab Logistics
Pallet to the Z1 Truss.
A grapple fixture on the Z1 Truss was removed. The Z1 utility tray was deployed
and its umbilical launch restraints released. The Z1 Manual Berthing
Mechanism latches was cycled and opened. Wisoff and Lopez-Alegria
performed one safety protocol test -- a flight evaluation of SAFER, which means
"simplified aid for EVA rescue".
Mounting P6 solar array structure
Mounting P6 solar array structure
Mounting P6 solar array structure
Installing the Destiny lab
Completing installation of the Power and Data Grapple Fixture on the Destiny
lab and connecting a shuttle docking part (PMA) from Z1 truss to the Destiny lab
Attaching a spar communications antenna to the Space Station's exterior and to
release a cooling radiator on the station
Unplugging Pressurized Mating Adapter 3 from the Unity Node electrical cables,
Lab Cradle Assembly installation and rigid umbilical installation
Transfering the Early Ammonia Servicer to the P6 Truss, installing the External
Stowage Platform and deliver a replacement Pump Flow Control System
Installing the Canadian built robotic arm (57.7 foot long) called: Canadarm2
Connecting the Power and Data Grapple Fixture circuits for the robotic arm
Installing a docking cone to prepare for the arrival of the Russian docking
compartment
Installing Joint Airlock Module ("Quest") and attaching two high-pressure oxygen
tanks
Mounting one oxygen and one nitrogen tank
Attaching the final nitrogen tank
Attaching an ammonia servicing unit and two science experiment packages
Mounting backup cables for future assembly
Using first time the new Russian built airlock and docking port named Pirs,
which docked on the Zvezda module since September 2001
Mounting a variety of instruments outside the Zvezda service module
Connecting seven cables between Zvezda service module and Pirs docking
module and take photos
Cutting away a rubbery O-ring seal that was preventing an unmanned cargo
freighter from properly docking to the complex
Adding insulation blankets around two critical solar array drive, but they were
unable to tighten up a solar array support truss
Moving a Strela cargo crane and install an amateur radio antenna
Installing six thruster deflectors at the rear of the Zvezda Service Module,
retrieving and replacing a device to measure material from the thrusters and
installing a ham radio antenna and its cabling
Performing housekeeping chores and gather tools to prepare for the next station
assembly mission
Installing a new generation solar array on the starboard side of the HST
Installing the new port side array and replacing one of the four Reaction Wheel
Assemblies
Replaceing the Power Control Unit (PCU), the "electrical heart" of the HST
Changing the Faint Object Camera (FOC) with the Advanced Camera for
Surveys (ACS) and installing a new electronic support module for the NICMOS
Cryo Cooler
Installing the experimental cooling system (Cryo Cooler), replacing the solid
nitrogen cooler of NICMOS
Installing the (S-Zero) truss segment
Mounting two large tripod legs of the truss to the Destiny laboratory
Rewiring the Canadarm2 and finishing the complex's newly delivered rail car
(Mobile Transporter) to move
Installing a ladder, testing electrical switches for upcoming truss expansion and
attaching external light and equipment to be used in future assembly work
Installing a Power and Data Grapple Fixture to the station's P6 truss, to gather
six micrometeoroid debris shields from the shuttle cargo bay and to store them
temporarily on the PMA-1; Chang-Diaz conducted a visual and photographic
inspection of the failed gyroscope
Completing the installation of the second component of Canada's Remote
Servicing System to the ISS; they connected power and data cables to the
newly installed Mobile Base System (MBS) and bolt it to the Mobile Transporter;
they also relocated a TV camera
Replacing a faulty wrist-roll joint on Canadarm2
Installing first six of an eventual 23 debris shields on Zvezda
Attaching equipment to the station's exterior that will be used during future
spacewalks and installing hardware for the Russian Kromka experiment
Hooking up power, data and fluid connections between the S0 truss and the
newly installed S1
Installing a video camera on the hull of the Unity node; connecting fluid lines
leading to the S1's ammonia tank assembly; finish removing launch locks
holding the CETA cart in place; installing 25 of 31 "spool positioning devices"
Performing some final outfitting and configuring of the new S1 truss and free a
stuck bolt on the station's mobile railcar
Hooking up connections between the P1 and S0 trusses and do other work and
installations
Installation of the fluid jumpers where the S0 and the P1 are attached to each
other, removal of the P1's starboard keel pin and relocation of the CETA cart
from the P1 to the S1 Truss, which will allow the Mobile Transporter to move
along the P1 to assist in upcoming assembly mission.
Installation of more SPDs (Spool Positioning Devices), reconfiguration of
electrical harnesses that route power through the Main Bus Switching Units and
attaching Ammonia Tank Assembly lines.
Continuing outfitting and activating the International Space Station's newest
component, the P1 (P-One) Truss and relocating a toolbox from the Z1 Truss to
one of the Crew and Equipment Translation Aid.
Reconfiguring power connections, providing a second power source for one of
the Station's control moment gyroscopes, securing thermal covers on quick
disconnect fittings for the station's thermal control system and to get a latch
unstuck, which holds down a support for a light on the Crew and Equipment
Translation Aid (CETA) carts.
Installation of new experiments and replace and removing parts for existing
experiments on the exterior of the ISS
Abort of a planned six-hour spacewalk
Installing a new circuit breaker to restore power to one of four gyroscopes that
help orient the complex
Replacing several materials exposure experiment packages and a thruster
contamination monitor, installing reflectors and communications equipment
needed for the docking of a new European Space Agency cargo ship
Installing three antennas on the exterior of the Zvezda Service Module that will
aid the automated docking of a new Station supply craft, the European
Automated Transfer Vehicle; replacing of a pump panel on the Zarya module;
installation of guides for spacesuit tethers on Zarya handrails; installation of
handrail covers near the Pirs Docking Compartment hatch
Installing a work platform on the hull of the command module, to mount the
European commercial experiment Rokviss, to relocate the Japanese space
exposure experiment package and to install a Russian biological experiment
Installing three communications antennas for the ATV (Automated Transfer
Vehicle) and a GPS (Global Positioning System) antenna; Sharipov manually
deployed a Russian experiment, tossing a small science satellite called
"Nanosatellite" into orbit
Testing thermal protection system repair techniques and installation of the
External Stowage Platform-2 Attachment Device (ESPAD) on the space station
Replace of a failed International Space Station attitude control gyroscope
Attach of a massive external tool box to the space station's Quest airlock
module; mounting an experiment package on the top of the station's solar array
truss; and remove two "gap fillers" sticking up between heat shield tiles on
Discovery's belly
Change out a Russian biological experiment, retrieve some radiation sensors,
remove a Japanese materials science experiment, photograph a Russian
materials experiment, install a television camera and relocate a grapple fixture
Installing a camera on the port side of the station's horizontal truss structure and
removing an old experiment from the solar array truss on top of the facility
Installing a safing bolt to prevent the inadvertent firing of an electro-mechanical
cable cutter on a mobile transporter used to move the station's big robot arm to
different work sites; deployed SuitSat, an old Russian spacesuit with an
amateur radio transmitter
Installing a new hydrogen vent valve on the hull of the Zvezda Service Module
to bypass a similar valve that is clogged; recovering a thruster residue collection
device from Zvezda, retrieving a contamination monitoring device and a
package of biology experiments and reposition a cable for a navigation antenna
on the aft end of Zvezda; replacing a camera on the station's Mobile Base
System
Maintenance on the station’s mobile transporter and a test of astronaut
movement on the end of the robotic arm boom extension for possible heat
shield repairs during future flights
Installation of a spare thermal control system pump on to the outside of the
Quest Airlock; replacement of reel assembly for a cable that provides power and
data to the station’s mobile transporter
EVA
EVA
S. Robinson
S. Noguchi
STS-114
ISS
03.08.2005
03.08.2005
6h 01m
6h 01m
EVA
EVA
S. Krikalyov
J. Phillips
ISS
18.08.2005
18.08.2005
4h 58m
4h 58m
EVA
EVA
W. McArthur
V. Tokarev
ISS
07.11.2005
07.11.2005
5h 22m
5h 22m
EVA
EVA
W. McArthur
V. Tokarev
ISS
03.02.2006
03.02.2006
5h 43m
5h 43m
EVA
EVA
P. Vinogradov
J. Williams
ISS
01.06.2006
01.06.2006
6h 31m
6h 31m
EVA
EVA
P. Sellers
M. Fossum
STS-121
ISS
08.07.2006
08.07.2006
7h 31m
7h 31m
EVA
EVA
P. Sellers
M. Fossum
STS-121
ISS
10.07.2006
10.07.2006
6h 47m
6h 47m
EVA
EVA
P. Sellers
M. Fossum
STS-121
ISS
12.07.2006
12.07.2006
7h 11m
7h 11m
Demonstration of on-orbit heat shield repair techniques
EVA
EVA
J. Williams
T. Reiter
ISS
03.08.2006
03.08.2006
5h 54m
5h 54m
Installing items of hardware in preparation for future ISS assembly work and set
up for deployment a number of instruments and experiments mounted on the
outside of the Station
STS-115
ISS
12.09.2006
12.09.2006
6h 26m
6h 26m
Installation of power and data cables between the P1 and P3/P4 structures in
preparation for solar array deployment
STS-115
ISS
13.09.2006
13.09.2006
7h 11m
7h 11m
STS-115
ISS
15.09.2006
15.09.2006
6h 42m
6h 42m
Continue work to prepare the International Space Station’s P3/P4 integrated
truss for operation
Performing final tasks required for activation of the Solar Alpha Rotary Joint
(SARJ); they also prepared the P3/P4 truss and its solar arrays for operation by
setting the stage for deployment of the truss' radiator
Retrieving equipment and photograph the station's Russian Zvezda Service
Module's docking port, Tyurin also hit a golf ball from a specially designed tee
mounted on the Pirs airlock as part of a Russian commercial activity
2006
EVA
EVA
EVA
EVA
EVA
EVA
J. Tanner
H. StefanyshynPiper
D. Burbank
S. MacLean
J. Tanner
H. StefanyshynPiper
EVA
EVA
M. Lopez-Alegria
ISS
M. Tyurin
23.11.2006
23.11.2006
5h 38m
5h 38m
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
R. Curbeam
C. Fuglesang
R. Curbeam
C. Fuglesang
R. Curbeam
S. Williams
R. Curbeam
C. Fuglesang
12.12.2006
12.12.2006
14.12.2006
14.12.2006
16.12.2006
16.12.2006
18.12.2006
18.12.2006
6h 36m
6h 36m
5h 00m
5h 00m
7h 31m
7h 31m
6h 38m
6h 38m
STS-116
ISS
STS-116
ISS
STS-116
ISS
STS-116
ISS
2007
2008
Main tasks and notes
EVA
EVA
M. Lopez-Alegria
ISS
S. Williams
31.01.2007
31.01.2007
7h 55m
7h 55m
EVA
EVA
M. Lopez-Alegria
ISS
S. Williams
04.02.2007
04.02.2007
7h 11m
7h 11m
EVA
EVA
M. Lopez-Alegria
ISS
S. Williams
08.02.2007
08.02.2007
6h 40m
6h 40m
EVA
EVA
M. Lopez-Alegria
ISS
M. Tyurin
22.02.2007
22.02.2007
6h 18m
6h 18m
EVA
EVA
F. Yurchikhin
O. Kotov
ISS
30.05.2007
30.05.2007
5h 25m
5h 25m
EVA
EVA
F. Yurchikhin
O. Kotov
ISS
06.06.2007
06.06.2007
5h 38m
5h 38m
EVA
EVA
EVA
EVA
EVA
EVA
EVA
EVA
J. Reilly
D. Olivas
P. Forrester
S. Swanson
J. Reilly
D. Olivas
P. Forrester
S. Swanson
STS-117
ISS
STS-117
ISS
STS-117
ISS
STS-117
ISS
11.06.2007
11.06.2007
13.06.2007
13.06.2007
15.06.2007
15.06.2007
17.06.2007
17.06.2007
6h 15m
6h 15m
7h 16m
7h 16m
7h 58m
7h 58m
6h 29m
6h 29m
EVA
EVA
F. Yurchikhin
C. Anderson
ISS
23.07.2007
23.07.2007
7h 41m
7h 41m
EVA
EVA
R. Mastracchio
D. Williams
STS-118
ISS
11.08.2007
11.08.2007
6h 17m
6h 17m
EVA
EVA
R. Mastracchio
D. Williams
STS-118
ISS
13.08.2007
13.08.2007
6h 28m
6h 28m
EVA
EVA
R. Mastracchio
C. Anderson
STS-118
ISS
15.08.2007
15.08.2007
5h 28m
5h 28m
EVA
EVA
D. Williams
C. Anderson
STS-118
ISS
18.08.2007
18.08.2007
5h 02m
5h 02m
EVA
EVA
S. Parazynski
D. Wheelock
STS-120
ISS
26.10.2007
26.10.2007
6h 14m
6h 14m
EVA
EVA
S. Parazynski
D. Tani
STS-120
ISS
28.10.2007
28.10.2007
6h 33m
6h 33m
EVA
EVA
S. Parazynski
D. Wheelock
STS-120
ISS
30.10.2007
30.10.2007
7h 08m
7h 08m
EVA
EVA
S. Parazynski
D. Wheelock
STS-120
ISS
03.11.2007
03.11.2007
7h 19m
7h 19m
EVA
EVA
P. Whitson
ISS
Y. Malenchenko
09.11.2007
09.11.2007
6h 55m
6h 55m
EVA
EVA
P. Whitson
D. Tani
ISS
20.11.2007
20.11.2007
7h 16m
7h 16m
EVA
EVA
P. Whitson
D. Tani
ISS
24.11.2007
24.11.2007
7h 04m
7h 04m
EVA
EVA
P. Whitson
D. Tani
ISS
18.12.2007
18.12.2007
6h 56m
6h 56m
EVA
EVA
P. Whitson
D. Tani
ISS
30.01.2008
30.01.2008
7h 10m
7h 10m
EVA
EVA
R. Walheim
S. Love
STS-122
ISS
11.02.2008
11.02.2008
7h 58m
7h 58m
EVA
EVA
R. Walheim
H. Schlegel
STS-122
ISS
13.02.2008
13.02.2008
6h 45m
6h 45m
EVA
EVA
R. Walheim
S. Love
STS-122
ISS
15.02.2008
15.02.2008
7h 25m
7h 25m
EVA
EVA
EVA
EVA
EVA
EVA
R. Linnehan
G. Reisman
R. Linnehan
M. Foreman
R. Linnehan
R. Behnken
STS-123
ISS
STS-123
ISS
STS-123
ISS
14.03.2008
14.03.2008
16.03.2008
16.03.2008
17.03.2008
17.03.2008
7h 01m
7h 01m
7h 09m
7h 09m
6h 53m
6h 53m
EVA
EVA
R. Behnken
M. Foreman
STS-123
ISS
20.03.2008
20.03.2008
6h 24m
6h 24m
EVA
EVA
R. Behnken
M. Foreman
STS-123
ISS
22.03.2008
22.03.2008
6h 02m
6h 02m
EVA
EVA
M. Fossum
R. Garan
STS-124
ISS
03.06.2008
03.06.2008
6h 48m
6h 48m
EVA
EVA
M. Fossum
R. Garan
STS-124
ISS
05.06.2008
05.06.2008
7h 11m
7h 11m
EVA
EVA
M. Fossum
R. Garan
STS-124
ISS
08.06.2008
08.06.2008
6h 33m
6h 33m
EVA
EVA
S. Volkov
O. Kononenko
ISS
10.07.2008
10.07.2008
6h 18m
6h 18m
EVA
EVA
EVA
SEVA
S. Volkov
O. Kononenko
Z. Zhai
B. Liu
15.07.2008
15.07.2008
27.09.2008
27.09.2008
5h 54m
5h 54m
0h 22m
0h 22m
ISS
Shenzhou VII
Align and connect the P5 truss segment to P4
Reconfigure power on channels 2 and 3 of the station's electrical system
Reconfigure power on channels 1 and 4 of the station's electrical system
Fully retract the array
Completing the activation of the lab complex's permanent ammonia cooling
system. They made several of electrical and fluid line connections to tie the heat
exchangers into coolant loop A; Most of the work was carried out in the socalled "rat's nest," a confined area between the Destiny laboratory module, the
Unity connecting module and the Z1 truss that extends upward and supports the
P6 solar array that provided the station's interim power.
Reconfiguring the second of two cooling loops for the Destiny module, securing
the aft radiator of the P6 truss after retraction and preparing the obsolete Early
Ammonia Servicer for removal this summer; several of the tasks were similar to
those of the previous spacewalk
Removing shrouds, which provide thermal shading and which are larger than
king-size bed sheets; they also made groundwork for attachment of a cargo
carrier and preparing work for the relocation of the P6 Truss
Successful attempt to free a stuck antenna on the ISS Progress M-58 cargo
craft docked at the aft end of the station. They also surveyed docking navigation
systems for the European Automated Transfer Vehicle.
Installing orbital debris protection panels on the Zvezda Service Module and
replacing experiments on the hull of Zvezda
Installing a section of Ethernet cable on the Zarya module, installing additional
Service Module Debris Protection (SMDP) panels on Zvezda, and deploying a
Russian scientific experiment
Hooking up power cables to begin activation of the S3/S4 truss and starting to
prepare the Solar Alpha Rotary Joint, also known as the SARJ, for activation
Continuing the activation of the S3/S4 and assist in the retraction of the
starboard solar array on the Port 6 (P6) truss
Finishing removing the SARJ's launch locks and restraints so that it can be
activated and repairing of the Shuttle's heat shield
Final work to activate the Solar Alpha Rotary Joint (SARJ)
Replacing a failed power controller on the station's truss, jettison a refrigeratorsized ammonia reservoir tank and clean seals on a docking port on the Unity
module
Removing locks from the S5 that secure it during launch and lock it in place,
relocating a radiator from its launch position to the bottom of the S5 to provide
clearance for solar arrays to track the sun.
Moving a failed control moment gyroscope (CMG-3) to an unpressurized
platform that holds spare parts outside the station called External Stowage
Platform–2 (ESP-2), a new platform, ESP-3, was added to the station (stored
inside ESP-3 is a new gyro that the spacewalkers used to replace the failed
one), disconnecting ESP-3 power cables to prepare it for permanent relocation
to the station
Preparing for the relocation of the P6 truss segment on the STS-120 mission,
moving two equipment carts from the right to left side of the station and
relocating an antenna and upgrade avionics and communication systems.
Installing support equipment on the S1 truss that will allow for an addition to the
inspection boom during the STS-123 mission, and installing a system to provide
better wireless video coverage during future missions
Retrieve and stow S-band Antenna Support Assembly, detach Node 2
("Harmony") heater cables and remove cover from Node 2 aft berthing
mechanism, stow grapple fixture on Node 2, disconnect Z1/P6 truss fluid lines,
install shrouds on P6 radiator and Sequential Shunt Unit, move and attach Node
2 to Node 1 left-hand docking port with Station robotic arm, pressurise area
between Node 1 and Node 2 hatches, perform leak check, open Node 1 hatch
Disconnect Z1 to P6 truss cables and unbolt P6; outfit outside Node 2 with
handrails, worksite interface fixtures, gap spanners and install thermal covers,
remote Node 2 berthing mechanism restraints; install grapple fixture on Node 2;
configure squib firing unit on S1 truss for deploying radiators.
The astronauts bolt P6 truss to P5 truss, attached P5 to P6 cabling, removed P6
radiator restraint and cover on Sequential Shunt unit and deploy radiator,
configured squib firing unit on P1 truss, relocated main Bus Switching Unit from
the Shuttle Cargo Bay to External Stowage Platform 2.
Attaching cufflink-like clips across the 15-foot width of the torn P6-4B solar array
blanket to provide the strength needed to permit its full extension. This dramatic
repair job was carried out successful.
They disconnected and stowed cables from Destiny to PMA 2, removed cover
on Node 2 (Harmony) forward docking mechanism, demated avionics cables
and released fluid tray bolts. They performed also a temporary stow of CETA
light on Destiny and configured cables for power transfer for S0
truss/Node1/Zvezda and PMA 1/Zarya. At least they retrieved the Baseband
Signal Processor from Z1 truss and released bolts on P1 Nitrogen Tank
Assembly.
Complete the exterior hookup of Harmony. Much of the spacewalk included the
moving of a 300-pound, 18.5-foot fluid tray from its temporary location at the
center of the station's main truss to Harmony.
Complete the exterior hookup of Harmony. Much of the spacewalk included the
moving of another 300-pound, 18.5-foot fluid tray from its temporary location at
the center of the station's main truss to Harmony.
Examination of the starboard Solar Alpha Rotary Joint (SARJ) and return a
trundle assembly to the station's interior.
Replacing a motor with electrical failures, the Bearing Motor Roll Ring Module
(BMRRM), called the 'broom". Inspection of the starboard Solar Alpha Rotary
Joint (SARJ).
Preparing the Columbus module for installation on Harmony. They installed the
Power Data Grapple Fixture on Columbus. Preparing work to remove the
Nitrogen Tank Assembly, a part of the station’s thermal control system, from the
P1 truss.
Removing the old NTA and temporarily store it on an equipment cart. They then
installed the new one. The old NTA was transferred to the shuttle's payload bay
for return home.
Installing two payloads on Columbus' exterior: SOLAR. Moving a failed control
moment gyroscope from its storage location on the station to the shuttle's
payload bay for return to Earth.
Preparing the JEM ELM PS for its removal from the shuttle's payload bay.
Assembling Special Purpose Dexterous Manipulator (SPDM), named Dextre by
removing covers and installing arm components on its main body.
Completing Dextre assembly by installing a tool platform and tool holster
assembly.
Evaluating the Shuttle Tile Ablator-54. The Tile Repair Ablator Dispenser, or TRAD, is similar to a caulk gun. They used TRAD to mix and squirt out the STA54 material into holes in several demonstration tiles. The repaired samples will
be returned to Earth for extensive testing.
Moving the Orbiter Boom Sensor System to a temporary location on the
station's main truss. They also installed a new trundle bearing assembly in the
starboard Solar Alpha Rotary Joint. Additional spacewalk tasks included
inspecting the SARJ and collecting debris samples.
Transfer of the Orbiter Boom Sensor System back to the shuttle from its
temporary location of the station's truss, or backbone. The crew then prepared
the JEM PM for its removal from the shuttle's payload bay.
Installing covers and external television equipment on the JEM PM and remove
covers on the JEM RMS. They also prepared for the relocation of the Japanese
logistics module.
Replacing a failed nitrogen tank assembly on the station's truss with a spare
that was temporarily stored on one of the station external stowage platforms.
They also retrieved a failed camera system on the truss.
Inspection of the Soyuz TMA-12 spacecraft, checking the five locks that attach
the return module to the propulsion module, and retrieve a suspect pyrotechnic
bolt for inspection by engineers on the ground.
Removing and installing science experiments. They also installed rendezvous
equipment for a new Russian module scheduled for launch late summer 2009.
First Chinese EVA
EVA
EVA
H. StefanyshynSTS-126
Piper
ISS
S. Bowen
18.11.2008
18.11.2008
6h 52m
6h 52m
EVA
EVA
H. StefanyshynSTS-126
Piper
ISS
R. Kimbrough
20.11.2008
20.11.2008
6h 45m
6h 45m
EVA
EVA
H. StefanyshynSTS-126
Piper
ISS
S. Bowen
22.11.2008
22.11.2008
6h 57m
6h 57m
EVA
EVA
S. Bowen
R. Kimbrough
STS-126
ISS
24.11.2008
24.11.2008
6h 07m
6h 07m
EVA
EVA
M. Fincke
Y. Lonchakov
ISS
23.12.2008
23.12.2008
5h 38m
5h 38m
2009 EVA
EVA
M. Fincke
Y. Lonchakov
ISS
10.03.2009
10.03.2009
4h 49m
4h 49m
EVA
EVA
S. Swanson
R. Arnold
STS-119
ISS
19.03.2009
19.03.2009
6h 07m
6h 07m
EVA
EVA
S. Swanson
J. Acaba
STS-119
ISS
21.03.2009
21.03.2009
6h 30m
6h 30m
EVA
EVA
R. Arnold
J. Acaba
STS-119
ISS
23.03.2009
23.03.2009
6h 27m
6h 27m
EVA
EVA
J. Grunsfeld
A. Feustel
STS-125
14.05.2009
14.05.2009
7h 20m
7h 20m
EVA
EVA
M. Massimino
M. Good
STS-125
15.05.2009
15.05.2009
7h 56m
7h 56m
EVA
EVA
J. Grunsfeld
A. Feustel
STS-125
16.05.2009
16.05.2009
6h 36m
6h 36m
EVA
EVA
M. Massimino
M. Good
STS-125
17.05.2009
17.05.2009
8h 02m
8h 02m
EVA
EVA
EVA
EVA
J. Grunsfeld
A. Feustel
G. Padalka
M. Barratt
18.05.2009
18.05.2009
05.06.2009
05.06.2009
7h 02m
7h 02m
4h 54m
4h 54m
IVA
IVA
G. Padalka
M. Barratt
ISS
10.06.2009
10.06.2009
0h 12m
0h 12m
EVA
EVA
D. Wolf
T. Kopra
STS-127
ISS
18.07.2009
18.07.2009
5h 32m
5h 32m
EVA
EVA
D. Wolf
T. Marshburn
STS-127
ISS
20.07.2009
20.07.2009
6h 53m
6h 53m
EVA
EVA
D. Wolf
C. Cassidy
STS-127
ISS
22.07.2009
22.07.2009
5h 59m
5h 59m
EVA
EVA
T. Marshburn
C. Cassidy
STS-127
ISS
24.07.2009
24.07.2009
7h 12m
7h 12m
STS-125
ISS
EVA
EVA
T. Marshburn
C. Cassidy
STS-127
ISS
27.07.2009
27.07.2009
4h 54m
4h 54m
EVA
EVA
D. Olivas
N. Stott
STS-128
ISS
01.09.2009
01.09.2009
6h 35m
6h 35m
EVA
EVA
D. Olivas
C. Fuglesang
STS-128
ISS
03.09.2009
03.09.2009
6h 39m
6h 39m
EVA
EVA
D. Olivas
C. Fuglesang
STS-128
ISS
05.09.2009
05.09.2009
7h 01m
7h 01m
EVA
EVA
M. Foreman
R. Satcher
STS-129
ISS
19.11.2009
19.11.2009
6h 37m
6h 37m
EVA
EVA
M. Foreman
R. Bresnik
STS-129
ISS
21.11.2009
21.11.2009
6h 08m
6h 08m
EVA
EVA
R. Satcher
R. Bresnik
STS-129
ISS
23.11.2009
23.11.2009
5h 42m
5h 42m
2010 EVA
EVA
M. Surayev
O. Kotov
ISS
14.01.2010
14.01.2010
5h 44m
5h 44m
EVA
EVA
R. Behnken
N. Patrick
STS-130
ISS
12.02.2010
12.02.2010
6h 32m
6h 32m
EVA
EVA
R. Behnken
N. Patrick
STS-130
ISS
14.02.2010
14.02.2010
5h 54m
5h 54m
EVA
EVA
R. Behnken
N. Patrick
STS-130
ISS
17.02.2010
17.02.2010
5h 48m
5h 48m
EVA
EVA
R. Mastracchio
C. Anderson
STS-131
ISS
09.04.2010
09.04.2010
6h 27m
6h 27m
EVA
EVA
R. Mastracchio
C. Anderson
STS-131
ISS
11.04.2010
11.04.2010
7h 26m
7h 26m
EVA
EVA
R. Mastracchio
C. Anderson
STS-131
ISS
13.04.2010
13.04.2010
6h 24m
6h 24m
EVA
EVA
G. Reisman
S. Bowen
STS-132
ISS
17.05.2010
17.05.2010
7h 25m
7h 25m
EVA
EVA
S. Bowen
M. Good
STS-132
ISS
19.05.2010
19.05.2010
7h 09m
7h 09m
EVA
EVA
M. Good
G. Reisman
STS-132
ISS
21.05.2010
21.05.2010
6h 46m
6h 46m
EVA
EVA
F. Yurchikhin
M. Korniyenko
ISS
27.07.2010
27.07.2010
6h 42m
6h 42m
EVA
EVA
D. Wheelock
T. CaldwellDyson
ISS
07.08.2010
07.08.2010
8h 03m
8h 03m
EVA
EVA
D. Wheelock
T. CaldwellDyson
ISS
11.08.2010
11.08.2010
7h 26m
7h 26m
EVA
EVA
D. Wheelock
T. CaldwellDyson
ISS
16.08.2010
16.08.2010
7h 20m
7h 20m
2011
EVA
EVA
F. Yurchikhin
O. Skripochka
ISS
15.11.2010
15.11.2010
6h 27m
6h 27m
EVA
EVA
D. Kondratiyev
O. Skripochka
ISS
21.01.2011
21.01.2011
5h 23m
5h 23m
EVA
EVA
D. Kondratiyev
O. Skripochka
ISS
16.02.2011
16.02.2011
4h 51m
4h 51m
EVA
EVA
S. Bowen
A. Drew
STS-133
ISS
28.02.2011
28.02.2011
6h 34m
6h 34m
EVA
EVA
S. Bowen
A. Drew
STS-133
ISS
02.03.2011
02.03.2011
6h 14m
6h 14m
EVA
EVA
A. Feustel
G. Chamitoff
STS-134
ISS
20.05.2011
20.05.2011
6h 19m
6h 19m
EVA
EVA
A. Feustel
M. Fincke
STS-134
ISS
22.05.2011
22.05.2011
8h 07m
8h 07m
EVA
EVA
A. Feustel
M. Fincke
STS-134
ISS
25.05.2011
25.05.2011
6h 54m
6h 54m
EVA
EVA
M. Fincke
G. Chamitoff
STS-134
ISS
27.05.2011
27.05.2011
7h 24m
7h 24m
EVA
EVA
M. Fossum
R. Garan
ISS
12.07.2011
12.07.2011
6h 31m
6h 31m
EVA
EVA
S. Volkov
ISS
A. Samokutyayev
03.08.2011
03.08.2011
6h 23m
6h 23m
EVA
EVA
O. Kononenko
A. Shkaplerov
ISS
16.02.2012
16.02.2012
6h 15m
6h 15m
EVA
EVA
G. Padalka
ISS
Y. Malenchenko
20.08.2012
20.08.2012
5h 51m
5h 51m
EVA
EVA
EVA
EVA
EVA
EVA
S. Williams
A. Hoshide
S. Williams
A. Hoshide
S. Williams
A. Hoshide
30.08.2012
30.08.2012
05.09.2012
05.09.2012
01.11.2012
01.11.2012
8h 17m
8h 17m
6h 28m
6h 28m
6h 38m
6h 38m
EVA
EVA
P. Vinogradov
R. Romanenko
ISS
19.04.2013
19.04.2013
6h 38m
6h 38m
EVA
EVA
C. Cassidy
T. Marshburn
ISS
11.05.2013
11.05.2013
5h 30m
5h 30m
EVA
EVA
F. Yurchikhin
A. Misurkin
ISS
24.06.2013
24.06.2013
6h 34m
6h 34m
EVA
EVA
C. Cassidy
L. Parmitano
ISS
09.07.2013
09.07.2013
6h 07m
6h 07m
EVA
EVA
C. Cassidy
L. Parmitano
ISS
16.07.2013
16.07.2013
1h 32m
1h 32m
EVA
EVA
F. Yurchikhin
A. Misurkin
ISS
16.08.2013
16.08.2013
7h 29m
7h 29m
EVA
EVA
F. Yurchikhin
A. Misurkin
ISS
22.08.2013
22.08.2013
5h 58m
5h 58m
EVA
EVA
O. Kotov
S. Ryazansky
ISS
09.11.2013
09.11.2013
5h 50m
5h 50m
EVA
EVA
R. Mastracchio
M. Hopkins
ISS
21.12.2013
21.12.2013
5h 28m
5h 28m
EVA
EVA
R. Mastracchio
M. Hopkins
ISS
24.12.2013
24.12.2013
7h 30m
7h 30m
EVA
EVA
O. Kotov
S. Ryazansky
ISS
27.12.2013
27.12.2013
8h 07m
8h 07m
27.01.2014
27.01.2014
23.04.2014
23.03.2014
6h 08m
6h 08m
1h 36m
1h 36m
2012
ISS
ISS
ISS
2013
2014 EVA
EVA
EVA
EVA
O. Kotov
S. Ryazansky
R. Mastracchio
S. Swanson
ISS
ISS
EVA
EVA
A. Skvortsov
O. Artemyev
ISS
19.06.2014
19.06.2014
7h 23m
7h 23m
EVA
EVA
A. Skvortsov
O. Artemyev
ISS
18.08.2014
18.08.2014
5h 11m
5h 11m
EVA
EVA
R. Wiseman
A. Gerst
ISS
07.10.2014
07.10.2014
6h 13m
6h 13m
EVA
EVA
R. Wiseman
B. Wilmore
ISS
15.10.2014
15.10.2014
6h 34m
6h 34m
EVA
EVA
M. Surayev
ISS
A. Samokutyayev
22.10.2014
22.10.2014
3h 38m
3h 38m
2015 EVA
EVA
B. Wilmore
T. Virts
ISS
21.02.2015
21.02.2015
6h 41m
6h 41m
EVA
EVA
B. Wilmore
T. Virts
ISS
25.02.2015
25.02.2015
6h 43m
6h 43m
EVA
EVA
B. Wilmore
T. Virts
ISS
01.03.2015
01.03.2015
5h 38m
5h 38m
EVA
EVA
EVA
EVA
EVA
EVA
G. Padalka
M. Korniyenko
S. Kelly
K. Lindgren
S. Kelly
K. Lindgren
10.08.2015
10.08.2015
28.10.2015
28.10.2015
06.11.2015
06.11.2015
5h 34m
5h 34m
7h 16m
7h 16m
7h 48m
7h 48m
EVA
EVA
S. Kelly
T. Kopra
ISS
21.12.2015
21.12.2015
3h 16m
3h 16m
EVA
EVA
T. Kopra
T. Peake
ISS
15.01.2016
15.01.2016
4h 43m
4h 43m
EVA
EVA
Y. Malenchenko
ISS
S. Volkov
03.02.2016
03.02.2016
4h 45m
4h 45m
EVA
EVA
J. Williams
K. Rubins
ISS
19.08.2016
19.08.2016
5h 58m
5h 58m
EVA
EVA
J. Williams
K. Rubins
ISS
01.09.2016
01.09.2016
6h 48m
6h 48m
06.01.2017
06.01.2017
13.01.2017
13.01.2017
6h 32m
6h 32m
5h 58m
5h 58m
ISS
ISS
ISS
2016
2017 EVA
EVA
EVA
EVA
S. Kimbrough
P. Whitson
S. Kimbrough
T. Pesquet
EVA
EVA
S. Kimbrough
T. Pesquet
ISS
24.03.2017
24.03.2017
6h 34m
6h 34m
EVA
EVA
S. Kimbrough
P. Whitson
ISS
30.03.2017
30.03.2017
7h 04m
7h 04m
EVA
EVA
EVA
EVA
P. Whitson
J. Fischer
P. Whitson
J. Fischer
12.05.2017
12.05.2017
23.05.2017
23.05.2017
4h 13m
4h 13m
2h 46m
2h 46m
Acronyms
EVA = Extra Vehicular Activity
IVA = Intra Vehicular Activity
SEVA = Stand-up-EVA
©
Last update on May 23, 2017.
ISS
ISS
ISS
ISS
Replacing a depleted nitrogen tank and a device used to help the flow of coolant
from the truss. They also removed thermal covers from the Japanese Kibo
module to inspect the berthing mechanism where the module's exposed facility
will be installed during the STS-127 mission in 2009. They also started
inspecting, cleaning and lubricating the starboard SARJ and begin replacing 11
of 12 trundle bearings.
Relocating two equipment carts, setting the stage for the installation of the
starboard S6 truss. They also lubricated the end effector of the Canadarm2.
They also continued lubricating the starboard SARJ and replacing trundle
bearings.
Completing starboard SARJ cleaning, lubricating and trundle bearing work.
Removing several thermal covers on the port SARJ. Kimbrough lubricated the
port SARJ, while Bowen reinstalled the thermal insulation covers on Kibo. He
then installed two GPS antennas on Kibo's logistics module, while Kimbrough
installed a new TV camera on the truss.
Deploying and retrieve several Russian experiments on the station's exterior
and installing a device to measure electromagnetic forces imparted on station
hardware as the complex moves through low Earth orbit
Installing of EXPOSE-R, a European experiment that exposes seeds and
spores to the space environment
After Canadarm2 released S6 and moved away, the spacewalkers plugged in
power and data cables to connect the new hardware and remove launch
restraints from the photovoltaic radiator and the boxes containing the new solar
arrays. They also deployed the Beta Gimbal Assemblies, which contain the
masts that support the solar arrays, and position the boxes for later deployment.
First task was to prepare a worksite for new batteries that will be brought up on
the STS-127 mission. They also installed a Global Positioning System antenna
on the pressurized logistics module attached to the Kibo laboratory.
Moving one of the station's two Crew and Equipment and Translation Aid - or
CETA - carts. With that work done, one of the carts was moved back to the
station's port side, leaving a cart for use on either side of the truss.
Replacing a wide field camera. They also swapped out three batteries and
installed a mechanism for a spacecraft to capture for de-orbit at the end of the
telescope's life.
Changing out three boxes, each containing two of the telescope's six
gyroscopes, and three batteries.
Installing the Cosmic Origins Spectrograph. They also conducted repairs to the
Advanced Camera for Surveys, which has experienced power failures, causing
two of the telescope's three observing channels to stop operating.
Repairing and upgrade the Space Telescope Imaging Spectrograph and install
a stainless steel blanket on Hubble's exterior. The blankets provide additional
thermal protection for some equipment bays, replacing the existing multi-layer
insulation that has degraded over time.
Replacing a sensor needed for pointing the telescope and install another
blanket on Hubble's exterior.
Preparing Pirs for the arrival of a new Russian module called the Mini-Research
Module 2, or MRM2
Interior spacewalk to the transfer compartment between the Zvezda service
module and the Zarya module for setting the stage for the MRM2's launch and
automated linkup.
Prepare connecting mechanisms for Kibo and the exposed facility. They also
released bolts on an ammonia tank assembly as get-ahead work for the next
shuttle mission, STS-128. Then, both worked to deploy the unpressurized cargo
carrier attachment system (UCCAS) on the Port 3 truss.
Transport of spare parts from a cargo carrier to a stowage platform on the
station's truss. They also relocated a grapple bar onto an ammonia tank
assembly as a get-ahead for the STS-129 mission.
Preparing the exposed facility for experiment transfers and replace two out of
the six batteries (four were planned) on the port side truss where they are
housed to provide power for the truss.
Replacing the final four batteries on the port truss.
Removing covers from the Dextre robotic arm, reconfigure cables on a panel for
some circuit breakers and deploy two additional payload attachment systems.
They also installed a second camera that will provide video of experiments on
the aft end of the exposed facility. Finally, they replaced an aging camera
system on the starboard truss. Instead some get ahead tasks were completed
which included installation of handrails and a portable foot restraint.
Preparing for the replacement of an empty ammonia tank on the station's port
truss, or backbone, by releasing its bolts. They also retrieved a materials
processing experiment and a European science experiment mounted outside
the Columbus laboratory and stowed them in Discovery's cargo bay for their
return to Earth.
Removing the new ammonia tank from the shuttle's payload bay and replacing it
with the used tank on the station. The new tank, weighing about 1,800 pounds,
was the most mass ever moved around by spacewalking astronauts. After the
new tank was installed, the old one was stowed in the shuttle for its return to
Earth.
Preparing for the arrival of the Tranquility node by attaching cables between the
starboard truss and the Unity node, the area where Tranquility will be installed.
The spacewalkers also replaced a communications sensor device, installed two
new GPS antennas and a new circuit breaker.
Installing a spare antenna on the station's truss, or backbone, and a bracket for
ammonia lines on the Unity module. They lubricated the grapple mechanism on
the Payload Orbital Replacement Unit Attachment Device on the Mobile Base
System and lubricated the snares of the hand of the station's Japanese robotic
arm.
Installing the GATOR (Grappling Adaptor to On-Orbit Railing) bracket to the
Columbus laboratory and an additional ham radio antenna. They installed on
the truss an antenna for wireless helmet camera video. They also relocated the
Floating Potential Measurement Unit that records electrical potential around the
station as it orbits the Earth and deployed a bracket to attach cargo on the truss.
Installing a new oxygen tank on the Quest airlock and the next set of the
"Materials on International Space Station Experiment," known as MISSE-7A and
7B, on ELC-2. They worked the heater cables on a docking adapter in advance
of the Tranquility node's installation on Unity's port side and deployed another
cargo platform on the truss.
Preparing the Mini-Research Module 2, known as Poisk, for future Russian
vehicle dockings.
Removing a cover that has been in place to protect a port on the Unity node.
Next, the spacewalkers removed and stored a spare parts platform from the
Special Purpose Dexterous Manipulator, or Dextre. Finally, they installed four
electronics systems cables between Unity and Tranquility to bring the new node
to life.
Installing ammonia plumbing connectors between Unity and Tranquility and
covered them with thermal insulation. When turned on, the ammonia will provide
cooling to Tranquility. Then they prepared a port on the Earth-facing side of
Tranquility for the flight day 8 relocation and attachment of the Cupola.
Turning on the ammonia cooling lines between Unity and Tranquility, installing
heater and data cables on Tranquility, removing insulation and launching locks
from the newly-installed Cupola, and installed handrails on the outside of
Tranquility.
The crew inside used the station's robotic arm to remove a new ammonia tank
from shuttle's payload bay and temporarily stow it on the station. Ammonia is
used to move excess heat from inside the station to the radiators located
outside. The spacewalkers then retrieved a seed experiment outside the
Japanese laboratory. Next, the pair installed a grapple bar to the new ammonia
tank on the station's truss. The pair also replaced a failed gyroscope that is part
of the station's navigation system. They also accomplished several "get-ahead"
tasks, removing 11 out of 12 p-clamps slated for a future spacewalk.
Using the station's arm, the astronauts removed the empty ammonia tank from
the station's truss and temporarily stowed it on an equipment cart. The new tank
then was installed and connected to the truss for use. Connecting the nitrogen
and ammonia fluid lines was delayed for this spacewalk because of the delays
getting the tank installed. The station's arm then temporarily stowed the old tank
on another part of the station's structure until the mission's third spacewalk.
First they finished the complicated change out of the large ammonia tank
assembly. Using the station's arm, the crew moved the old tank into the shuttle's
payload bay for return to Earth. The spacewalkers also removed the grapple bar
from the old ammonia tank and stowed it on a spare parts platform. Finally they
retrieved debris shields from the Quest airlock to return to Earth.
Installing a spare space-to-ground Ku-band antenna on the station's truss, or
backbone. Then they installed a new tool platform on Dextre. The spacewalkers
breaked the torque on bolts holding batteries in place on the truss, in
preparation for their removal and replacement on the second and third
spacewalks. Battery preparation work was deferred from STS-131 to this flight.
Removing and replacing four of the six batteries on the port truss to store
electricity from the solar arrays on that truss. The used batteries were installed
on the cargo carrier for return to Earth on Atlantis. In addition to the original
tasks they relieved a snagged cable that is preventing full use of the laser
imager and video camera.
Installing the final two new batteries on the truss and put the old batteries on the
carrier. Next, they retrieved a grapple fixture from Atlantis' payload bay and
brought it inside the station for use as a spare.
Preparing the recently delivered Russian Rassvet Module for future automated
dockings by Russian spacecraft
They removed hose clamps and then started disconnecting umbilicals from the
broken space station coolant pump. However, difficulty unplugging one of the
ammonia lines consumed a couple of hours and a leak seen from that
connector once it finally cooperated prevented the astronauts from progressing
any further in their work.
Removing the old pump and stowing it on a payload attachment bracket on the
Mobile Base System on the station's truss while preparing the replacement
pump for its removal from a stowage platform adjacent to the Quest airlock and
its installation on the truss during a third spacewalk.
Installation of a spare ammonia pump module on the S1 Truss.
Installing a multipurpose workstation on the starboard side of the Zvezda
service module’s large-diameter section, cleaning thermal insulation around the
vents for the Elektron oxygen-generation system and relocating a television
camera from one end of the Rassvet docking compartment to the other (failed
due to interference with insulation where it was to be installed).
Completing installation of a new high-speed data transmission system,
removing an old plasma pulse experiment, installing a camera for the new
Rassvet docking module and retrieving a materials exposure package.
Installing two experiments. They also retrieved a pair of panels exposed to
space as part of an experiment to identify the best materials for building longduration spacecraft. The cosmonauts also deployed an experiment called
ARISSat-1, or Radioskaf-V, a boxy 57-pound nanosatellite that houses
congratulatory messages commemorating the 50th anniversary of Yuri
Gagarin's launch to become the first human in space.
They installed a power extension cable between the Unity and Tranquility nodes
to provide a contingency power source should it be required. The spacewalkers
moved the failed ammonia pump module that was replaced in August 2010 from
an attachment bracket to a stowage platform adjacent to the Quest airlock.
Drew and Bowen installed a piece of hardware that will go under a camera on
the truss. They next replaced a guide for the rail cart system used for moving
cargo along the truss. The guides were removed when the astronauts were
performing work on the station's starboard Solar Alpha Rotary Joint.
The astronauts removed thermal insulation from a platform, while Bowen
swaped out an attachment bracket on the Columbus module. Bowen then
installed a camera assembly on the Dextre robot then removed insulation from
Dextre's electronics platform. Drew installed a light on a cargo cart and repair
some dislodged thermal insulation from a valve on the truss then remove other
insulation from Tranquility. The final task was be to "fill" a special bottle with
space for a Japanese education payload. The bottle will be part of a museum
exhibit for public viewing.
They retrieved two experiments and install a new package of experiments on
ELC-2. Next they installed jumpers between segments on the left-side truss, for
ammonia refills; vent nitrogen from an ammonia servicer; and installed an
external wireless communication antenna on the Destiny laboratory that will
provide wireless communication to the Express Logistics Carriers mounted on
the station's truss.
The astronauts refilled radiators with ammonia. They also completed venting the
early ammonia system, lubricated a left-side solar joint and parts of Dextre.
Installing a grapple, or handle for the robotic arm on the station to grab, on the
Zarya module to support robotic operations based from the Russian segment.
They also installed additional cables to provide backup power to the Russian
portion of the space station.
They stowed the shuttle's 50-foot boom on the right-side truss on a permanent
stowage fixture, retrieved the grapple from the station's left-side truss and used
it as a replacement for the grapple currently on the boom. They then released
restraints from one of the arms on Dextre and replaced thermal insulation on
one of the spare gas tanks for the Quest airlock.
Transfer of a failed ammonia pump to the shuttle cargo bay, transfer of the
Robotic Refueling Mission (RRM) to the station and place an experiment on
ELC-2 for long-duration exposure.
Moving a small crane, installing a communications terminal and removing and
inspect antennas. Other tasks included installing a materials science experiment
and deploying a micro-satellite.
The tasks included: space crane Strela 1 relocation from DC1 to MRM2, using
Strela 2, jettison MLI (Multi-Layer Insulation) cover, installing the Strela 1 on
MRM2 (to aid future EVAs), stowing Strela 2 at DC1, installing the Vinoslivost
Materials Sample Experiment on the DC1, taking a sample from the MLI
insulation of the SM to look for any signs of living organisms and collecting one
(of two planned) samples from the "Test" experiment.
The cosmonauts moved a Strela-2 cargo boom from the Pirs docking
compartment to the Zarya module. This allows Pirs to be undocked at a later
date making room for the new Russian multipurpose laboratory. Other tasks
included releasing a small satellite and installing debris shields.
The astronauts replaced a faulty power routing unit (partly failed) on the
station's truss and run cables for an upcoming Russian laboratory module.
The astronauts completed the installation of a spare power unit on the station's
truss.
The astronauts repaired an ammonia leak on one of the station's port-side
radiators.
They installed and connected the Obstanovka plasma wave experiment, a
Russian investigation into space weather in Earth’s upper atmosphere. This
task includes the planned jettison of two probe containers and a cable reel.
They then removed a container from the Russian experiment Biorisk, which
looks at the effects of microbial bacteria and fungus on structural materials used
in spacecraft construction.
Inspection and replacement of a pump controller box on the station’s far port
truss (P6) suspected of leaking ammonia coolant.
They replaced a fluid flow regulator on the Russian segment’s Zarya module.
They also removed the Photon-Gamma unit of the Molina-Gamma experiment,
which measures gamma splashes and optical radiation during terrestrial
lightning and thunder conditions, from a portable workstation on Zvezda.
The astronauts replaced a space-to-ground communications receiver and
wireless video equipment and installed power and cables for a Russian
multipurpose laboratory module.
The spacewalk was terminated after just one hour due to an unexplained build
up of water inside the space suit helmet of Luca Parmitano.
They continued routing power and Ethernet cables for the future arrival of the
Russian Multipurpose Laboratory Module. They also installed on the Poisk
module a panel of experiments designed to collect data on the effects of the
microgravity environment in low-Earth orbit.
The cosmonauts removed a space laser communications system from the hull
of the Zvezda service module and planned to install a pointing platform on
which a small optical telescope will be installed on a future Russian spacewalk.
This task failed.
The cosmonauts carried the Olympic torch when they venture outside the
International Space Station. After the photo opportunity, they prepared a
pointing platform on the hull of the station's Zvezda service module for the
installation of a high resolution camera system in December 2013, relocate of a
foot restraint for use on future spacewalks and deactivate an experiment
package.
The EVA mainly focused on disconnecting the failed loop A pump module from
its location on the Starboard 1 (S1) Truss - including the infamously difficult
ammonia disconnections.
They removed a spare pump module from the ESP-3 and installed it on the
Starboard 1 (S1) Truss.
The cosmonauts attempted to install a pair of cameras on the Zvezda Service
Module as part of a Canadian commercial endeavor designed to downlink Earth
observation imagery and to refresh experiments.
Reinstalling a pair of high-fidelity cameras as part of a commercial endeavor
between a Canadian firm and the Russian Federal Space Agency.
The astronauts replaced a backup multiplexer-demultiplexer (MDM) that failed
during routine testing April 11, 2014.
The cosmonauts installed an automated phased antenna array (AFAR). They
also relocated a part of the Obstanovka experiment. Other tasks included
verifying the correct installation of the universal work platform (URM-D), taking
samples from one of Zvezda's windows, and jettisoning an experiment frame.
The cosmonauts deployed a nanosatellite, installed two experiment packages
(EXPOSE-R and Plume Impingement Deposit Monitoring) and retrieved others
(CKK#1, Vinoslivosk and Biorisk). In addition they installed holder on Automatic
Phased Array (AFAR) antenna, took surface samples from a window on Zvezda
and photographed Multi-Layer Insulation from the exterior of the Russian ISS
segment.
The astronauts moved a failed cooling pump from temporary to long-term
storage on the station's truss. They also installed a new relay system that will
provide backup power options to the mobile transporter, which moves the large
robotic arm around the out outside of the space station.
They replaced a sequential shunt unit electronics box, a voltage regulator.
The cosmonauts removed and jettisoned several pieces of hardware no longer
needed on the Russian segment of the station and conducted a detailed
photographic survey of the exterior surface of the Russian modules.
The astronauts started routing cables for the International Docking Adapter
(IDA).
The astronauts unfurled and hooked up two more long cables and Terry Virts
lubricated the grapple fixture on the end of the space station's robot arm
(SSRMS).
They installed new antennas and cabling needed for communications between
the station and commercial crew capsules bound for, or departing from, the new
docking adapters.
Photographic inspection of the station's Russian segment, retrieval of an
experiment, window cleaning and surface sampling.
The EVA focused on station upgrades and maintenance tasks, including
installing a thermal cover on the Alpha Magnetic Spectrometer.
The astronauts attempted to restore the port truss ammonia cooling system to
its original configuration.
The pair moved the station's mobile transporter rail car so it can be latched in
place ahead of the docking of a Russian cargo resupply spacecraft on
December 23, 2015.
The astronauts replaced a failed voltage regulator that compromised one of the
station's eight power channels on November 13, 2015. Additional tasks included
deploying cables for the future installation of an International Docking Adapter
(IDA) , and retrieving a broken light from a truss camera.
Thy performed works with the experiment Test at two locations: they took away
samples from the outer surface of the docking compartment Pirs hatch and in
the area of the cover window #8 at the Zvezda.
They also dismantled a monoblock responsible for exposing samples of organic
and biological materials at experiment Expose-R and set the unit samples #2
from an experiment for the study of space influence on the mechanical
properties of materials. At the same module, they had to replace a removable
cassette container, where the samples are placed of the exterior of stations in
conditions of prolonged exposure, change the orientation of the pressure control
unit on the module Poisk.
One of the important tasks were works on an experiment with the goal to
develop technologies for sticking film thermal control coating, secure package
screen-vacuum thermal insulation on the surface to be repaired and
transactions that require bonding film materials in space flight.
Theey installed handrails on the soft part of the conical device of the Functional
Cargo Block Zarya. Upon completion of the main tasks the cosmonauts started
a photo documentation of the external surface of the ISS Russian segment.
Installation the first of two IDAs onto PMA-2.
They retracted a thermal radiator. They also tightened struts on a solar array
joint, and installed the first of several enhanced high-definition television
cameras.
The astronauts installed adapter plates and hooked up electrical connections for
three of six new lithium-ion batteries.
The astronauts installed adapter plates and hooked up electrical connections for
the final three of six new lithium-ion batteries .
Main objective was to prepare the PMA-3 for installation of the second IDA.
They disconnected cables and electrical connections on PMA-3 to prepare for
its robotic move. The spacewalkers also installed on the starboard zero truss
(ITS) a new computer relay box equipped with advanced software for the
adapter.
They lubricated the latching end effector on the Canadarm2 robotic arm,
inspected a radiator valve suspected of a small ammonia leak and replaced
cameras on the Japanese segment of the outpost.
This spacewalk featured the astronauts reconnecting cables and electrical
connections on PMA-3 at its new home on top Harmony. They also installed the
second of the two upgraded computer relay boxes on the station's truss and
installed shields and covers on PMA-3 and the now-vacant common berthing
mechanism port on Tranquility.
They replaced an avionics box on the starboard truss called an ExPRESS
Logistics Carrier (ELC), a storage platform.
The astronauts replaced a backup multiplexer-demultiplexer (MDM) that failed
on May 20, 2017.